This is a set of seven photographs of map grid production using co-ordinatorgraphs at the Army Survey Regiment, Fortuna Bendigo. c1960s to 1970s. The Aristo Co-ordinatorgraph introduced in 1962 was a large heavy steel framed light table with a scribing head that moved in a XY direction using a vernier calibrated measuring scale to 0.001 of an inch. Whilst hand operated it was much quicker and accurate than manual grid and graticule calculation, plotting and scribing. Mapping PNG presented the Regiment with many challenges. WO1 Farrington and CPL John Dean developed computer software for the digitally controlled co-ordinatorgraph, the Calcomp 718 Flatbed Plotter. Much time was saved by automatically plotted cartographic grids and graticules, and automatically draw base compilation sheets complete with aerial triangulated stereo model control. This could be used for a number of maps and was the first step towards map automation. The history of co-ordinatorgraphs is covered in more detail with additional historic photographs, in pages 50 to 51 and page 88 of Valerie Lovejoy’s book 'Mapmakers of Fortuna – A history of the Army Survey Regiment’ ISBN: 0-646-42120-4. SGT Bill Boyd appearing in photo .1P reach the rank of WO1 and for 11 years was the technical warrant officer at the Detachment Army Survey Regiment located at Bonegilla, Victoria. He was awarded the OAM, the Order of Australia Medal for the development of the Flexiflow quality control system. This system comprised a series of job plans and charts linked to a task allocation to resource magnetic planning board. Using critical path analysis and task prioritisation, complex job planning was efficiently scheduled, and re-prioritisations readily made. Reproduction requirements were effectively coordinated by way of weekly courier to the Army Survey Regiment. Supervisors and technicians fully embraced the system as they could understand their role, others around them and the positive production achievements. Bendigo. See page 178 of Valerie Lovejoy’s book for more information on WO1 Boyd’s contribution to RA Svy.This is a set of seven photographs of map grid production using co-ordinatorgraphs at the Army Survey Regiment, Fortuna Bendigo. c1960s to 1970s. The photographs were printed on photographic paper and are part of the Army Survey Regiment’s Collection. The photographs were scanned at 300 dpi. .1) - Photo, black & white, c1960s, L to R: SGT Bill Boyd demonstrating Aristo Co-ordinatorgraph equipment to unidentified technicians (x3) .2) - Photo, black & white, c1960s, Aristo Co-ordinatorgraph equipment. .3) - Photo, black & white, c1960s, unidentified technician operating Aristo Co-ordinatorgraph equipment. .4) - Photo, black & white, c1960s, L to R: PTE Desi Asaris and CPL Kalen Sargent operating Aristo Co-ordinatorgraph equipment. .5) - Photo, black & white, Photo, black & white, c1970s, John Bloor operating Calcomp co-ordinatorgraph equipment. .6) - Photo, black & white, Photo, black & white, c1970s, unidentified technician operating Calcomp co-ordinatorgraph equipment. .7) - Photo, black & white, Photo, black & white, c1970s, L to R: SGT Andy Covington and SGT John Waight operating Calcomp co-ordinatorgraph equipment..7P annotated on back ‘Covington & Waight’.royal australian survey corps, rasvy, army survey regiment, army svy regt, fortuna, asr, carto, air survey

Map extract showing the towns of Cheddar, Rodney Stoke, Westbury and a smaller town of Easton. The area depicted is part of Somerset, England. Map is hand drawn by J.J. Raisbeck date unknown. John James RAISBECK was born on 4 July 1880 at Christchurch New Zealand. He served 4 years (Citizen Military Force - CMF) in 9th Australian Light Horse Regiment in Central VIC with the rank 2nd Lieutenant. He was the first Australian appointed to the Survey Section RAE, on 16 April 1910, as a draughtsman which was his civilian profession, with the rank Warrant Officer, honorary 2nd Lieutenant. He was required to resign his commission in the CMF. He supervised the draughting work of the Section in Melbourne and was largely responsible for the mapping standards and specifications set in the production of the Cowes one-inch-to-one-mile military map, which became the enduring Australian standard. He was also responsible for supervising the printing of the maps by the Victorian Government Printer. He was appointed 2nd Lieutenant in the AIF Survey Corps draft on 6 December 1917 (from Melbourne) embarking for England on 22 December 17. He was attached to the Australian Corps Topographic Section in France from 21 April 1918 to 5 March 1919 serving as Second-in-Command and as Officer Commanding. He was promoted Lieutenant 15 October 1918, attending the AIF Survey School, Southampton in 1919, returning to Australia 23 June 1919, before his AIF appointment was terminated 17 July 1919. He went on to serve the Survey Section RAE and Australian Survey Corps, including in the Second World War, having been promoted Captain then Major and Officer Commanding Army Headquarters Cartographic Section until February 1940. He retired after 33 years of service to military survey, and after serving the Corps in two world wars, on 4 July 1943 with the retired rank Lieutenant-Colonel. He was the author of the article ‘A Short History of the Military Survey of Australia, 1907-1936’, published in The Australian Surveyor, Sept 1, 1937Map extract slightly larger than A4. Scale: One Inch to One and a half Mile. 1:31680, 9 x copiesSignature of "J.J. Raisbeck" bottom right-hand cornerroyal australian survey corps, rasvy, fortuna, army survey regiment, army svy regt, asr

Used at the Ballarat School of Mines and the Ballarat Technical Art SchoolThis collection of examinations is significant because of its completeness with the full range of examinations between 1914 and 1950.Large leather bound books, with leather spine, containing all examinations held at the Ballarat School of Mines (including the Ballarat Technical Art School and Ballarat Junior Technical School). The examination papers were supplied and printed by the Education Department, Victoria. Examinations include: Agriculture, Algebra, Architecture, Arithmetic, Applied Mechanics, Assaying, Biology, Botany, Boilermaking, Building Design, Blacksmithing, Bricklaying, Carpentry and Joinery, Coachbuilding, Cabinet Making, Civil Engineering, Cabinet Making, Commercial, Chemistry, Engineering Drawing, Economics, English, Electrical technology, Electricity and Magnetism, Electric Wiring, Electric Welding, Electrical Fitting, Electrical Trades, Food Analysis, Geology, Geological Mapping, Graphics, Geometry, Heat Engines, Heat Treatment, Hydraulics, Hand Railing, Instrument Making, Millinery, Milling and Gearouting, Machine Shop Practice. Metal Founding, Mining, Metallurgy, Mineralogy, Mathematics, Motor Mechanics, Mine Surveying, Mining Mechanics, Petrology, Physics, Painting and Decorating, Pattern Making, Plastering, Plumbing and Gasfitting, Printing, Refrigeration, Spelling, Science , Shorthand, Surveying. Signwriting. Sheet Metalwork, Toolmaking, Ladies Tailoring, Trigonometry, Typewriting, Welding, Commercial Geography. Millinery, Dressmaking, Needlework, Decorative Needlework, Architecture, Building Design and Construction, Art (Composition in Form and Colour), Art (Casting Clay MOdels) Art (Drapery), Art (Drawing the Human Figure From Casts), Art (Drawing the Antique from Memory), Art (Drawing from Memory); Art (Drawing Plant Forms from Nature, Art (Drawing Plant Forms From Memory), Art (Drawing from Models and Objects), (Drawing From a Flat Example). Art (Drawing in Light and Shade from a Cast of Ornament or Lower Nature), Art (Drawing Ornament from the Cast), Art (Drawing from Models or Objects), Art (Drawing fro Dressmakers' and Milliners' Fashions), Art (Drawing With the Brush), Art (Drawing from a Flat Example); Art (Modelled Design), Art (General Design), Art (Embossed Leatherwork), Art (Practical Plane Geometry), Art (Practical Solid Geometry), Art (Geometrical Drawing), Carpentry and Joinery, Art (Human Anatomy), Art (Historic Ornament), Art (House Decoration), Art (LEttering), Signwriting, Art (Light Metalwork), Art (Modelling), Art (Modelling the Human Figure from a Life), Art (Stencilling); Art (Wood Carving) Refrigeration, Teaching, Boilermaking, Blacksmithing, Carpentry and Joinery, Coachbuilding and Carriage Drafting, Electric Wiring, Electrical Fitting, Graining and Marbling, Instrument Making , Machine Shop Practice, Metal Founding, Milling and Gear Cutting, Motor Mechanics, Painting and Decorating, Sheet Metalwork, Toolmaking, Printing, Pattern Making, Plumbing and gasfitting, examinations, ballarat school of mines, ballarat technical art school, trades, education department victoria, agriculture, algebra, architecture, arithmetic, applied mechanics, assaying, biology, botany, boilermaking, building design, blacksmithing, bricklaying, carpentry and joinery, coachbuilding, cabinet making, civil engineering, commercial, chemistry, engineering drawing, economics, english, electrical technology, electricity and magnetism, electric wiring, electric welding, electrical fitting, electrical trades, food analysis, geology, geological mapping, graphics, geometry, heat engines, heat treatment, hydraulics, hand railing, instrument making, millinery, milling and gearouting, machine shop practice, metal founding, mining, metallurgy, mineralogy, mathematics, motor mechanics, mine surveying, mining mechanics, petrology, physics, painting and decorating, pattern making, plastering, plumbing and gasfitting, printing, refrigeration, spelling, science, shorthand, surveying, signwriting, sheet metalwork, toolmaking, ladies tailoring, trigonometry, typewriting, welding., dressmaking, needlework, decorative needlework, architecture, building design and construction, art (composition in form and colour), art (casting clay models), art (drapery), art (drawing the human figure from casts), art (drawing the antique from memory), art (drawing from memory), art (drawing plant forms from nature, art (drawing plant forms from memory), art (drawing from models and objects), (drawing from a flat example), art (drawing in light and shade from a cast of ornament or lower nature), art (drawing ornament from the cast), art (drawing from models or objects), art (drawing for dressmakers' and milliners' fashions), art (drawing with the brush), art (drawing from a flat example), art (modelled design), art (general design), art (embossed leatherwork), art (practical plane geometry), art (practical solid geometry), art (geometrical drawing), art (human anatomy), art (historic ornament), art (house decoration), art (lettering), art (light metalwork), art (modelling), art (modelling the human figure from a life, art (stencilling), art (wood carving), teaching, coachbuilding and carriage drafting, graining and marbling, milling and gear cutting, commercial geography, exams, examination book

These 18 photographs were taken at an Army Survey Regiment Open Day at Fortuna Villa, Bendigo on the 24th of February 1990. This occasion was one of several events held to commemorate the 75th anniversary of the formation of the Royal Australian Survey Corps. Although historical tours of Fortuna occurred on a regular basis, this was the first technical open day since 1972. The Royal Australian Survey Corps recognised that an Open Day was the best way for the local community in Bendigo to gain an insight into the unit’s important role as Defence’s map production agency, its technical equipment, and its economic importance to Bendigo. It also gave them an opportunity to tour through historic Fortuna Villa. This occasion is covered in more detail in page 143 of Valerie Lovejoy’s book 'Mapmakers of Fortuna – A history of the Army Survey Regiment’ ISBN: 0-646-42120-4. Refer to items 6434.27P and 6435.35P for more photos of the Open Day taken inside Fortuna, the garden areas and Map Production areas of Air Survey and Cartographic Squadron. Photo prints of some of these photos were scanned and catalogued in items 6247.30P and 6291.6P.These 18 photographs were taken at an Army Survey Regiment Open Day held at Fortuna, Bendigo on the 24th of February 1990. The 35mm colour and black & white negatives photographs were scanned at 96 dpi and are part of the Army Survey Regiment’s Collection. .1) - Photo, colour, 1990. Print Troop – WO2 Rob Bogumil with visitors. .2) - Photo, colour, 1990. Print Troop – L to R: SPR Ross Anza, LCPL Janet Murray with visitors. .3) - Photo, black & white, 1990. Print Troop – L to R: LCPL Janet Murray, MAJ Bob Coote, SPR Gary Lord with visitors. .4) - Photo, black & white, 1990. Photo Troop – L to R: WO2 Keith Fenton RE UK Exchange, SGT Steve Burke with visitors. .5) - Photo, colour, 1990. Photo Troop – SGT Steve Burke with visitors. .6) - Photo, colour, 1990. Photo Troop – L to R: unidentified, SGT Steve Burke with visitors. .7) - Photo, colour, 1990. Print Troop – L to R: CPL Peter Breukel, WO2 Keith Fenton RE. UK Exchange with visitors. .8) - Photo, black & white, 1990. Photo Troop - WO2 Keith Fenton RE. UK Exchange. .9) - Photo, black & white, 1990. Print Troop - civilian visitors. .10) - black & white, Print Troop, 1990. - L to R: civilian visitors, SSGT Ian Nichols, CPL John ‘Flash’ Anderson. .11) - Photo, black & white, 1990. Print Troop - L to R: SSGT Ian Nichols, CPL Dale Hudson, Planeta printing press, with civilian visitors. .12) - Photo, colour, 1990. Print Troop - L to R: SSGT Ian Nichols, CAPT Roger Hancock with civilian visitors. .13) - Photo, colour, 1990. Print Troop - LT Marty Lyons with civilian visitors. .14) - Photo, black & white, 1990. Print Troop - L to R: LT Marty Lyons, unidentified with civilian visitors. .15) - Photo, black & white, 1990. Orthophoto Mapping Section - L to R: SSGT Peter Imeson, SGT Bob Garritty with civilian visitors. .16) - Photo, colour, 1990. Optronics raster scanner - WO2 Adrian ‘Charlie’ Creedy with civilian visitors. .17) - Photo, colour 1990. Outside Photo Troop office - L to R: SSGT Rhys De Laine, WO2 Rob Bogumil. .18) - Photo, black & white, 1990. Photo Troop - civilian visitors..1P to .18P – no annotationsroyal australian survey corps, rasvy, army survey regiment, army svy regt, fortuna, asr, litho sqn

alan gardiner collection, maps

The two cards of nibs are retail display cards of the dip pen nibs that William Mitchell Calligraphy produced, dating back to around the 1920’s, which was the time of the Great Exhibition in the UK. At that time dip pens with steel nibs were the main writing instruments. British Pens Ltd. had recently formed as a company and its subsidiaries included the the company William Mitchell, which is why British Pens Ltd. is named on the cards as well. One card (1) has the Round Hand nib, which is widely used today for calligraphy scripts. The other card (2) has the Script nib that has round upturned points for monocline or unshaded lettering that is also used for calligraphy. The nibs also have a detachable reservoir. The pen nibs are shaped to fit into a slot in the base of a wooden or Bakelite pen holder. The hole at the front of the nib is for collecting ink from a well, which is then stored in a reservoir at the back of the nib. The nibsare stamped with their nib size and Pedigree (what type of nib it is) and maker’s details. William Mitchell Calligraphy still makes these nibs today with a slightly difference finish. (ref: Sales and Marketing Director of William Mitchell Calligraphy in 2016). HISTORY of the Ink Pen Quills and ink were common writing tools until the early 19th century when the pen trade began mass producing steel nibs and pens. The steel nibs each have a hole in the middle that acts like a well for the ink. When the nib is dipped into the ink well the writer needs to ensure that it is dipped to only just past that well. India Ink was one of the most popular inks used with the nib pens, notable for its satin-like smooth flow. This ink is composed of a particularly fine carbon mixed with water; it can also be obtained as a dry stick that is then crushed and mixed with water as required. The Jewellery Quarter of Birmingham had the largest concentration of independent jewellers in Europe. Birmingham became the centre of the world’s pen trade for many years -, during the 1800’s over 100 factories, employing 1000s of skilled workers, manufactured the ‘Birmingham Pen’. ABOUT WILLIAM MITCHELL CALLIGRAPHY LTD.* (*The following text is quoted from the William Mitchell Calligraphy website) British based William Mitchell Calligraphy has been designing and manufacturing exceptional pens for almost 200 years. The William Mitchell heritage in making pen nibs began whilst working with his brother John Mitchell in the early 1820s. William Mitchell established his own business in 1825 to become one of the leading nib manufacturers and famous for lettering pens. Almost 100 years later William Mitchell merged with Hinks, Wells & Co, another pen manufacturer, to form British Pens, employing around 1000 people in the Bearwood Road area of Birmingham. During the early 1960s British Pens acquired the pen business of other pen manufacturers Perry & Co and John Mitchell, once again reuniting the two brothers. Joseph Gillott, who were famous for their artist drawing and mapping nibs, amalgamated with British pens in 1969. William Mitchell and Joseph Gillott established in Birmingham during the early part of the nineteenth century and [their products] are still proudly made here. British Pens were subsequently purchased by its current owner Byron Head, the owner of William Mitchell (Sinkers) in 1982, and was subsequently renamed William Mitchell (calligraphy) Ltd. Established in 1827 Joseph Gillott was one of the pioneers of mass steel pen nib manufacturing. The company was particularly strong in the American market, prompting Elihu Burrit, the American consul, to write “In ten thousand school houses across the American continent between two oceans, a million children are as familiarly acquainted with Joseph Gillott as with Noah Webster” (The compiler of the famous American dictionary). The company consequently received visits from many notable Americans, including president Ulysses S Grant. The early 19th century invention and mass production of pen nibs such these in our collection had a large impact on education and literacy because the nibs could be produced in great numbers and affordable prices.Pen nibs; 2 cards of steel dip pen nibs from the 1920’s. The steel nibs are attached to cards by 2 rows of entwined cotton cord. Reverse sides of cards have some hand written marks. Manufacturer; William Mitchell, Birmingham, England. Card issued by British Pens Ltd. Nibs have shaped ends, a hole in the centre with a well on the underside, and the tops are shaped approximately quarter circle. Inscriptions are pressed into each nib. The script pens have detachable reservoirs made of a metal different to the nib. (Card 1) Round Hand Pens, 11 nibs remain from card of 12. Printed on card “Round Hand Pens for Beautiful Writing, Twelve degrees of point, Square points. William Mitchell, Birmingham, England. This card is issued by British Pens Ltd. MADE IN ENGLAND” Also printed on top left of card is a pen drawing of a person writing at a desk, background of decorative 3-paned window in brick wall. (Card 2) Script Pens; 11 nibs remain from card of 12. “Script pens fitted with detachable reservoir. William Mitchell, Birmingham, England. This card is issued by British Pens Ltd. MADE IN ENGLAND” Also printed on top right of card is a pen drawing of a person writing at a desk, background of decorative 3-paned window in brick wall. On Card 1, - each nib is stamped with its size, and “Wm MITCHELLS / PEDIGREE / ROUND HAND / ENGLAND” - hand written on front bottom of card in ball point pen “Lettering 5 times size of nib” - hand drawn on back of card in red and blue ball point pen are scribbled lines On Card 2 - each nib is stamped with its size, and “WILLIAM / MITCHELLS / SCRIPT PEN / ENGLAND” - a black circle corresponding to the nib is printed on the card above each nib. - hand written on back of card in black felt tip pen are numerals - hand drawn on back, 4 parallel lines in red ball point pen with the numbers “10” between 2 of the lines flagstaff hill, warrnambool, shipwrecked coast, flagstaff hill maritime museum, maritime museum, shipwreck coast, great ocean road, william mitchell calligraphy ltd, british pens ltd., pen nib, writing implement, dip pen, round hand nib, script nib, birmingham manufacturer, communication in writing, mass produced pen nibs

Box of dip pen nibs made by William Mitchell Calligraphy dating back to late 19th or early 20th century when dip pens with steel nibs were the main writing instruments. The pen nibs are shaped to fit into a slot in the base of a wooden or Bakelite pen holder. The hole at the front of the nib is for collecting ink from a well, which is then stored in a reservoir at the back of the nib. The nibs are stamped with their nib size and Pedigree (what type of nib it is) and maker’s details. William Mitchell Calligraphy still makes these nibs today with a slightly difference finish. (ref: Sales and Marketing Director of William Mitchell Calligraphy in 2016). HISTORY of the Ink Pen Quills and ink were common writing tools until the early 19th century when the pen trade began mass producing steel nibs and pens. The steel nibs each have a hole in the middle that acts like a well for the ink. When the nib is dipped into the ink well the writer needs to ensure that it is dipped to only just past that well. India Ink was one of the most popular inks used with the nib pens, notable for its satin-like smooth flow. This ink is composed of a particularly fine carbon mixed with water; it can also be obtained as a dry stick that is then crushed and mixed with water as required. The Jewellery Quarter of Birmingham had the largest concentration of independent jewellers in Europe. Birmingham became the centre of the world’s pen trade for many years -, during the 1800’s over 100 factories, employing 1000s of skilled workers, manufactured the ‘Birmingham Pen’. ABOUT WILLIAM MITCHELL CALLIGRAPHY LTD.* (*The following text is quoted from the William Mitchell Calligraphy website) British based William Mitchell Calligraphy has been designing and manufacturing exceptional pens for almost 200 years. The William Mitchell heritage in making pen nibs began whilst working with his brother John Mitchell in the early 1820s. William Mitchell established his own business in 1825 to become one of the leading nib manufacturers and famous for lettering pens. Almost 100 years later William Mitchell merged with Hinks, Wells & Co, another pen manufacturer, to form British Pens, employing around 1000 people in the Bearwood Road area of Birmingham. During the early 1960s British Pens acquired the pen business of other pen manufacturers Perry & Co and John Mitchell, once again reuniting the two brothers. Joseph Gillott, who were famous for their artist drawing and mapping nibs, amalgamated with British pens in 1969. William Mitchell and Joseph Gillott established in Birmingham during the early part of the nineteenth century and [their products] are still proudly made here. British Pens were subsequently purchased by its current owner Byron Head, the owner of William Mitchell (Sinkers) in 1982, and was subsequently renamed William Mitchell (calligraphy) Ltd. Established in 1827 Joseph Gillott was one of the pioneers of mass steel pen nib manufacturing. The company was particularly strong in the American market, prompting Elihu Burrit, the American consul, to write “In ten thousand school houses across the American continent between two oceans, a million children are as familiarly acquainted with Joseph Gillott as with Noah Webster” (The compiler of the famous American dictionary). The company consequently received visits from many notable Americans, including president Ulysses S Grant. Email on file, from Mike Chappell, Sales and Marketing Manager, William Mitchell Calligraphy, “20161122 - William Mitchell re pen nibs” How to use a dip pen to create modern calligraphy, https://thepostmansknock.com/how-to-use-a-dip-pen-to-create-modern-calligraphy/ India Ink, Wikipedia https://en.wikipedia.org/wiki/India_ink birmingham Pen Trade, Wikipedia, https://en.wikipedia.org/wiki/Birmingham_pen_trade The Pen Museum, http://penmuseum.org.uk/ The early 19th century invention and later mass production of pen nibs such these in our collection had a large impact on education and literacy because the nibs could be produced in great numbers and affordable prices.Box of patent Mitchell nibs containing 48 "Pedigree" nibs. Box depicts picture of William Mitchell on lid, and picture of nib pen on lid and side. Made in Birmingham, England. Nib “0505 Wm MITCHELLS PEDIGREE ENGLAND” Box “PEDIGREE / MAINFOLD SLIP”, “WILLIAM MITCHELL / BIRM - - - - - - LOND” flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, william mitchell calligraphy ltd, pen nib, writing implement, writing accessories, dip pen, birmingham manufacturer, communication in writing, mass produced pen nibs

This hardcover book, The logbooks of the 'Lady Nelson' : with the journal of her first commander, Lieutenant James Grant, R.N., by Ida Lee (Mrs Charles Bruce Marriott) was published over 100 years after the Lady Nelson arrived in Australia to navigate and survey this ‘new colony’. Included in the book are sixteen charts and illustrations from the originals in the Admiralty Library, showing the surveyed land and water. The transcribed Contents, below, summarise the trips of the Lady Nelson during this time. Book’s Content PLUS text of the Chart of ‘Part of Bass Strait’ - Chapter 1: The Lady Nelson built with centreboards. Her voyage to Sydney under James Grant. The first ship to pass through Bass Strait. - Chapter 2: Returns to explore the Strait. Her visits to Jervis Bay and to Western Port in 1801 - Chapter 3: Colonel Paterson and Lieutenant Grant survey Hunter River - Chapter 4: Murray appointed commander of the Lady Nelson. His voyage to Norfolk Island. - Chapter 5: Murray’s exploration of Bass Strait. - Chapter 6: Discovery of Port Phillip. - Chapter 7: The Lady Nelson in company with HMS Investigator examines the North-Eastern shores of Australia. - Chapter 8: The French ships in Bass Strait. The founding of Hobart. - Chapter 9: Symons succeeds Curtoys as commander of the Lady Nelson. His voyages to Tasmania, Port Phillip and New Zealand. - Chapter 10: The Lady Nelson in Tasmania. The founding of Port Dalrymple. - Chapter 11: The Estramina is brought to Sydney. The Lady Nelson visits Norfolk Island and Port Dalrymple. - Chapter 12: Tippahee and his four sons are conveyed to New Zealand in the Lady Nelson. - Chapter 13: The Lady Nelson accompanies HMS Tamar to Melville Island. - Chapter 14: The loss of the Lady Nelson Text included with the ‘Chart of Bass Strait’ … “Part of Bass Strait, including the discoveries made by Acting Lieut. J. Murray, commander of His Majesty’s armed surveying vessel Lady Nelson, between November 1801 and March 1802. By command of His Excellency Governor King.” “This chart, which bears Murray’s autograph, shows his explorations of Western Port, Port Phillip and King Island. It should be noted that Flinders Island is named Grand Capuchin. This is one of the charts referred to as "unfortunately missing” in the Historical Records of N.S. Wales, vol. iv. P. 764” The story of the Lady Nelson In 1798 the British Admiralty ordered a cutter of 60 tons to be built along the design of the armed cutter Trial that was developed by Captain John Schanck, with three sliding keels or centreboards that could be individually raised and lowered, for use on the River Thames. The new cutter was to be named Lady Nelson. Philip Gidley King, prior to taking up his appointment as third Governor of the colony of New South Wales, was in England at the time of the Lady Nelson’s fit-out and was aware of the need for such a ship for survey work in the colony in New South Wales. He convinced Captain Schanck, the Commissioner of Transport in England, to construct and rig the Lady Nelson as a brig rather than a cutter, keeping the feature of the three sliding keels, which would be very useful for mapping in shallow waters. The new Lady Nelson was launched at Deptford, England on the River Thames in November 1798, with the official commission to discover and survey the unknown parts of the coast of New Holland (Australia) and establish British sovereignty over the continent. The Lady Nelson sailed from Portsmouth, England on March 1800 under the command of Lieutenant James Grant. She carried an armament of two original and four extra brass carronade carriage guns and set sail as part of a convoy heading to Port Jackson, in New South Wales, New Holland. After a while she continued to sail on her own. Her journey was troubled with problems at times; damaged and broken keels, troublesome crew and leaking topsides between the waterline and the deck due to poor seals. She arrived at the Cape of Good Hope in July and waited for the winter to pass to avoid the strong winds of the ‘Roaring Forties’. While at the Cape, Grant received a despatch to travel to Port Jackson via the newly discovered Bass Strait, rather than the usual route via the tip of Van Diemen’s Land (Tasmania). This also gave him the opportunity to survey the strait on the way. He departed the Cape in October and in December he made his first sighting of New Holland near Mount Gambier in what is now South Australia. A report by Ecclestone in 2012, ‘The Early Charting of Victoria’s Coastline’, mentions that Grant charted and named Capes Banks and Northumberland, and sighted inland hills that he named Mt Gambier and Mt Schanck, the latter after the designer of his ship. Grant then reached the south-western shores of what is now Victoria on 3-4 December 1800, and from Cape Bridgewater he examined the coast eastward to Cape Patton. Although he had not continuously sighted the coast in the vicinity of Port Fairy and Warrnambool, the western part of Victoria became known as Grant’s Land. The Lady Nelson continued eastward and passed through Bass Strait, becoming the first vessel to reach the east coast of New Holland from the west, and arrived at her destination of Port Jackson later in December 1800. Grant, in the Lady Nelson, then left Port Jackson and began survey work. He discovered Port Phillip on Victoria’s coast and explored King Island, he helped establish the first European settlement in Tasmania on the Derwent River, and Port Dalrymple, Newcastle and Port Macquarie. He made several trips from Norfolk Island to Hobart Town. Governor Macquarie sailed on with him to Van Diemen’s Land for a tour of inspection in 1811. Grant helped establish the first settlement on Melville Island in Northern Australia. The Lady Nelson was used to transport cargo, civilians and convicts and to source pigs from Timor. In February 1825 the Lady Nelson sailed again for Timor and never returned. One report said that “Every soul on board, we regret to state, was cruelly massacred, and the hull of the vessel was seen some time after with the name painted on her stern.” The hull was sighted on the island of Babar, which is almost 200 kilometres east of Timor. This particular copy of the book ... This item is from the ‘Pattison Collection’, a collection of books and records that was originally owned by the Warrnambool Mechanics’ Institute, which was founded in Warrnambool in 1853. By 1886 the Warrnambool Mechanics’ Institute (WMI) had grown to have a Library, Museum and Fine Arts Gallery, with a collection of “… choice productions of art, and valuable specimens in almost every branch and many wonderful national curiosities are now to be seen there, including historic relics of the town and district.” It later included a School of Design. Although it was very well patronised, the lack of financial support led the WMI in 1911 to ask the City Council to take it over. In 1935 Ralph Pattison was appointed as City Librarian to establish and organise the Warrnambool Library as it was then called. When the WMI building was pulled down in 1963 a new civic building was erected on the site and the new Warrnambool Library, on behalf of the City Council, took over all the holdings of the WMI. At this time some of the items were separated and identified as the ‘Pattison Collection’, named after Ralph Pattison. Eventually the components of the WMI were distributed from the Warrnambool Library to various places, including the Art Gallery, Historical Society and Flagstaff Hill. Later some were even distributed to other regional branches of Corangamite Regional Library and passed to and fro. It is difficult now to trace just where all of the items have ended up. The books at Flagstaff Hill Maritime Village generally display stamps and markings from Pattison as well as a variety of other institutions including the Mechanics’ Institute itself. RALPH ERIC PATTISON Ralph Eric Pattison was born in Rockhampton, Queensland, in 1891. He married Maude Swan from Warrnambool in 1920 and they set up home in Warrnambool. In 1935 Pattison accepted a position as City Librarian for the Warrnambool City Council. His huge challenge was to make a functional library within two rooms of the Mechanics’ Institute. He tirelessly cleaned, cleared and sorted a disarrayed collection of old books, jars of preserved specimens and other items reserved for exhibition in the city’s museum. He developed and updated the library with a wide variety of books for all tastes, including reference books for students; a difficult task to fulfil during the years following the Depression. He converted all of the lower area of the building into a library, reference room and reading room for members and the public. The books were sorted and stored using a cataloguing and card index system that he had developed himself. He also prepared the upper floor of the building and established the Art Gallery and later the Museum, a place to exhibit the many old relics that had been stored for years for this purpose. One of the treasures he found was a beautiful ancient clock, which he repaired, restored and enjoyed using in his office during the years of his service there. Ralph Pattison was described as “a meticulous gentleman whose punctuality, floorless courtesy and distinctive neat dress were hallmarks of his character, and ‘his’ clock controlled his daily routine, and his opening and closing of the library’s large heavy doors to the minute.” Pattison took leave during 1942 to 1945 to serve in the Royal Australian Navy, Volunteer Reserve as Lieutenant. A few years later he converted one of the Museum’s rooms into a Children’s Library, stocking it with suitable books for the younger generation. This was an instant success. In the 1950’s he had the honour of being appointed to the Victorian Library Board and received more inspiration from the monthly conferences in Melbourne. He was sadly retired in 1959 after over 23 years of service, due to the fact that he had gone over the working age of council officers. However he continued to take a very keen interest in the continual development of the Library until his death in 1969 This book about the logbooks of the Lady Nelson is locally significant for its association with the brig Lady Nelson, in which Lt. James Grant made the first documented European discovery of the area later known as Warrnambool in December 1800. This book is also nationally significant for its association with Grant in the Lady Nelson being the first to sail from west to east through Bass Strait, opening up a shorter, faster route to the colony of Port Jackson rather than going all the way south around Van Diemen’s Land. The book is nationally significant for its contents of the logbooks of the journeys of the Lady Nelson under various commanders and the copies of the charts created from the surveyed information and the new land of Australia was discovered. This book is also significant for its association with the full-size non-sailing replica of the Lady Nelson from Mount Gambier’s visitor centre, which was restored by Flagstaff Hill’s Master Boat Builder in Warrnambool in 2012, and with a ship mode of the Lady Nelson in our Collection The Pattison Collection, along with other items at Flagstaff Hill Maritime Village, was originally part of the Warrnambool Mechanics' Institute’s collection. The Warrnambool Mechanics’ Institute Collection is primarily significant in its totality, rather than for the individual objects it contains. Its contents are highly representative of the development of Mechanics' Institute libraries across Australia, particularly Victoria. A diversity of publications and themes has been amassed, and these provide clues to our understanding of the nature of and changes in the reading habits of Victorians from the 1850s to the middle of the 20th century. The collection also highlights the Warrnambool community’s commitment to the Mechanics’ Institute, reading, literacy and learning in the regions, and proves that access to knowledge was not impeded by distance. These items help to provide a more complete picture of our community’s ideals and aspirations. The Warrnambool Mechanics Institute book collection has historical and social significance for its strong association with the Mechanics Institute movement and the important role it played in the intellectual, cultural and social development of people throughout the latter part of the nineteenth century and the early twentieth century. The collection of books is a rare example of an early lending library and its significance is enhanced by the survival of an original collection of many volumes. The Warrnambool Mechanics' Institute’s publication collection is of both local and state significance. The Logbooks of The Lady Nelson Author: Ida Lee ( Mrs Charles Bruce Marriott) Publisher: Grafton & Co Date: 1915Label on spine with typed text RA 910.994 LEE Inside front cover has a sticker that reads Warrnambool Mechanics Institute and Free Library shipwrecked-coast, flagstaff-hill, warrnambool, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, shipwrecked-artefact, book, warrnambool library, warrnambool mechanics’ institute, warrnambool city librarian, mechanics’ institute library, victorian library board, warrnambool books and records, warrnambool children’s library, great ocean road, the logbooks of the lady nelson, ida lee, mrs charles bruce marriott, captain john schanck, sliding keels or centreboards, lady nelson, british brig hms lady nelson, lieutennant james grant, bass strait discovery, surveying king island and port phillip bay, philip gidley king, survey map

Bound copies of the Ballarat School of Mines Students' Magazine, 1898-1901 Vol 1, No. 1, September 1898 * News and Notes (Ballarat School of Mines Museum, J.F. Usher, New British Pharmacopoeia, excursion to Bendigo) * History of the Ballarat School of Mines * Current Topics (Federation, Gladstone, Anglo-American Alliance) * Of Custom * Discovery of Coolgardie * Mining Notes(Clunes, Pitfield, Birthday Mine, Western Australia, Transvaal, Mt Bischoff, Rand Drill Co.) * From the Journals * The Societies - (Student Association, Ballarat Field Club and Science Society, Ballarat Photographic Club) * Original Poetry * Sports * Students' Association Committee Meetings * On the Increase of Temperature of the Earth With Increased Depth Vol 1, No. 2, October 1898 * Notes about some of the Past Students (E.M. Weston, J.A. Porter, H.R. Sleeman, G.E. Sander, B.C.T. Solley, T. Rhys, C. Burbury, D. McDougal, J. Matsen) * Excursion to Daylesford, p.3 * History of the Ballarat School of Mines (continued) * The Soudan * Greater Melbourne * Image of J. Hopkinson, electrical engineer killed ascending the Alps * What is Science * Mining Notes (Pitfield Plains, Victoria United G.M.Co., Lithgow, Avoca, great Cobar, Mt Whycheproof) * Student's Association (women's franchise) * Sports Vol 2, No. 1, March 1899 * News and Notes * History of the Ballarat School of Mines (continued) * Notes of Victorian Geology, 1. Granites, by Thomas S. Hart * Sir William Crookes * Summaries and Notes from the Mining Journals * Students' Association * Sports * The Bush Assayer * Solubility of Gold-Silver Alloys in Potassium Cyanide * Correspondence Vol 2, No. 2, April 1899 * News and Notes (Smythesdale Excursion, New Buildings, A.S. Coyte, R.J. Allan) * History of the Ballarat School of Mines (Continued) * The New Students (J. Owen, A. Clayton Morrisby, A.S. Atkin, J. Alexander Reid, Alfred G. Johnston, L. Lowe, F.H. Dalton, W.M. Robertson, A. Hacke, H.L. Giles, W. Martin, E. Walshe, H.L. Krause, R. Sawyer) * Berringa by Oh'E Jay * Summaries and Notes from the Mining Journals * Mount Magnet to Victoria - A Long Bicycle Trip * 1898 Examination returns * Sports Vol 2, No. 3, May 1899 * Technical Education and the Proposed Affiliation of the Schools of Mines with the Melbourne University. * Laying of the Foundation Stone of the New Classrooms (now Administration Building). Alexander J. Peacock * News and Notes (Past Students - A.S. Lilburn, J.W. Sutherland, J. Richardson, E. Prendergast, J. Wallace, J. Kidd, J. Lake, Mathew Thompson), Coolgardie Exhibition. * Trip to Lal Lal * Students' Association * Summaries and Notes from the Mining Journals * Professor Henry Louis on Mining Education * Corrections Used in Chaining by C.W. Adams * The Black Horse Cyanide Plant * Sports * Completed List of 1898 Examinations Vol 2, No. 4, June 1899 * News and Notes * The Education Problem by D.N. McLean * A Few Hints on Histological Technique by Emil Gutheil * Summaries and Notes from the Mining Journals * Students' Association * A Visit to the Skipton Caves (Mount Widdern, Ormand Hill, volcano, Emu Creek, Mount Kinross, Mount Elephant, Mount Vite Vite, Mount Kinross, Mount Hamiston) * Mount Magnet To Victoria (cont) * The New Engines at the Ballarat Woollen Mills - includes image of the Compound 700 H.P. Engines constructed for the Ballarat Woollen Mills by Austral Otis Company and consulting engineers Monash and Anderson. * Sports * Original Poetry * Correspondence Vol 2, No. 5, July 1899 * News and Notes (E. Byron Moore, Visit to Britannia Gold Mine, J. Bryant, Visit to Last Chance Mine) * A Few Hints on Histological Technique (cont) by Emil Gutheil * Summaries and Notes from the Mining Journals * Professor Alfred Mica Smith (includes image) * Notes on Victorian Geology Part 2 The Trappean Rocks, by Thomas Hart * Origin of Diamonds * Hydraulic Mining by A.E.C. Kerr * Volcanoes by F.G. Bonney * Analytical Chemistry Notes by Daniel Walker * Some Things Out To Do * Sports * Correspondence Vol 2, No. 6, August 1899 *Summaries and notes from the Mining Journals * Some Regulations of the Academy of Mines at Freiberg * A visit to Mt Lyell Smelters * Professor Gilbert J. Dawbarn (includes image) * Air compressor and Transmission of Power by Compressed air by A.E.C. Kerr * Chemistry Notes by Daniel Walker * Mineralogical Notes, Ballarat by Thomas S. Hart * Kalgurli Gold Mines, W.A. * OUr New Lab Vol 2., No 7, September 1899 * Summaries and Notes from the Mining Journals * Some recent Steam Plants at Bendigo by Gilbert Dawbarn * Professor Thomas Stephen Hart (includes image) * Students Association * Notes on Victorian Geology by Thomas Hart * Centrifugal Pumps * A New Chum's Experience by E.M. Weston Vol 2., No 8, October 1899 * The institute of Chemistry Examinations * A New Method of Qualitative Chemical Analysis by Emil Gutheil * Steam Engine Valves and Valve-Gears by Gilbert Dawbarn * Daniel Walker (includes image) * Notes on Victorian Geology by Thomas Hart * Cyaniding Cripple Creek Tellurides (Metallic Extraction Company) * Notes on Two Ballarat Gravel Pumping Plants, G.A. Wilberforce (Eureka Jennings Co and Yarrowee Sluicing Co) * History of the School of Mines (concluded) Vol 3., No 1, March 1900 * A Journey from Natal to Mashomaland with the British Police * A Plea for Research * New Caledonia by C.A.M. Deane * Notes of Victorian Geology - Lower Palaeoroic Rocks by Thomas Hart * Mt Bischoff Mine and Mill * Summaries and Notes from the Mining Journals * Things we Eat and Drink * Farewell to A.S. Coyte Vol 3., No 1, March 1900 * Mining Education * Model Locomotive made by the apprentices of the Phoenix Foundry, p2 * Glimpses of Rhodesian Police Camp Life * New Caledonia (continued) * Summaries from the Mining and Engineering Journals * Boot and Saddle Vol 3., No 3, May 1900 * A Students' Common Room * Geological Excursion to Hardie's Hill * Notes on Victorian Geology by Thomas Hart * The Planet Venus by John Brittain * Summaries and Notes from the Australian Mining Standard * The Assay Ton * Zeehan Smelters * Electrical Notes by Ohe Jay * Trop of the Cricket Club to Stawell * Students' Association * Solid Hydrogen Vol 3., No 4, June 1900 * The Minister of Mines on Mining Education (Minister A.R. Outtrim) * Lal Lal Geology Trip (Thomas Hart) * Rifle Club now defunct, pg 3 * A Contribution to the Mining Geology of Kalgoorlie, W.A. by Ferdinand Krause (includes cross sections) (Wood's Point, Rand, Johannesburg, South Africa, Gaffney's Creek, Walhalla, Shady Creek, Sago Hill at Cardigan, Bunbury) * Summaries and Notes from the Australian Mining Standard (Buninyong Estate Mine) * Monthly Progress Reports of the Geological Survey * Electrical Notes by John M Sutherland (Telagraphone, phonograph, telephone receiver) * Students' Theatre Party (Gordon Todd, Ohe Jaeger, C.S. Wakley) * Opening of the New Buildings - Ministerial Speeches (Outtrim, W.H. Irvine, New Mining Laboratory, Old Chemistry Building, Battery, Model Mine) * Students' Association * Relief of Mafeking * A Critic Criticised * Things We Eat and Drink by Ohe Jay - Oatmeal, Coffee and Cocoa. Vol 3., No 5, July 1900 * Research * Adelaide Varsity Students at Ballarat * The Manchester-Liverpool Mono Railway * Students Association * *A Contribution to the Mining Geology of Kalgoorlie, W.A. by Ferdinand Krause (continued) (includes cross-sections) * Motive Power, address by Charles A. Parsons * Summaries and Notes from the Australian Mining Standard * Sugar Manufacturing by Sugna * Great Creswick Hydraulic Sluicing Plant (THomas Hart, Ballarat School of Mines Mining Class visit) * Reminiscences of a Students Life in Germany * Football - Ballarat School of Mines v Geelong Grammar School (Australian Rules Football) Vol 3., No 6, August 1900 * Cheap Mine Management * Library * Bendigo School of Mines, pg 3 * Notes on Ore Dressing by T, Vincent, Manager The Zeehan (Tas) Silver-Lead Mines Ltd) * Motive Power * Notes on Broken Hill - Its Mines and Minerals by J. Williams * The Concert * Summaries and Notes from the Australian Mining Standard * The Dandy Duke's Dreadful Demise * The Road Race Vol 3., No 7, September 1900 * Michaelmas Excursion (Melbourne University, Prof Kernot, Applied Mechanics) * Injury to School Property * Return of E. Ditchburn (Boer War) * Mt William Gold-Field visit, pg 3 * The Stoping of Wide Lodes by J.V. Lake (includes cross sections) * Summaries of Notes from the Australian Mining Standard * Notes on Broken Hill Part 2- Its Mines and Minerals by W.J. Williams * Motive Power from the Waves * Electrical Notes * Some Account of Italian Mining (Sarinia, Sicily, Peidmont, Lombardia) by Candido Maglione * Students Association * Should Women Have the Vote by Frank Bessemeres * The School Theatre Parly * Past Students * Poetry * Football * Surveying Rules Vol 3., No 8, October 1900 * Ballarat School of Mines Associateship * An Engineering Laboratory * Students' Practical Work * Notes on Broken Hill Part 3 by W.J. Williams * The Lake View Consols by F.S. Earp - Battery Treatment of Sulpo-Telluride Ore * Neglected Mineral Fields - Eurowie and Warrata * A Glimpse Ahead * News and Notes * A.W. G. McPherson, Boer War * Students Association * Ballarat School of Mines Melbourne Excursion to the Government Electric Lighting Station, Austral-Otis Co, Working Mens College * Ballarat School of Mines Concert in Aid of Soldiers Statue Balance Sheet * Football * Cricket Vol 3., No 8b, November 1900 * Position of the Ballarat School of Mines with Regards to Mining Education * Age Limit * Entrance Examination * Presentation t0 Professor Alfred Mica Smith * Image of a Group of Old Ballarat School of Mines Students in Coolgardie and Kalgoorlie. * Students Association Vol 4., No 1, March 1901 * Espirit De Corps * A few Notes on the Testing of Explosives * Round About Inverell, NSW by F. and J. Mawl * On the Choice of Drawing Instruments * Summaries and Notes From the Technical Journals * Annual Examinations 1900 * New Students * Sporting Notes * The Vale of Coolgardie Mine, Bonnievale, W.A. by G. Stephen Hart * News and Notes (Kerr Grant, C.L. Nash, R. Gordon Todd, Vial) * Editorial Notices Vol 4., No 2, Second Term 1901 * The Metallurgical Treatment of Sulpho-Telluride Ores by L.W. Grayson * Some Metallurgical Difficulties of Aluminium * Diehl's Sulphide Process by A.E. C. Kerr * A Californian Gold Mine by A.E. C. Kerr * New Express Locomotives for the Victorian Government (Phoenix Foundry) * An Excursion to Geelong (Electric Light and Traction Company of Australia) * The Linkenback Table for our New Mining Laboratory (Humboldt Company of Colgne) * Death of Thomas Bath * The Late Alfred G. Johnson (Boer War) * An Introduction to Natural Science by Emil Gutheil * The First Annual School Sports Meeting * Concert in Aid of Magazine Funds * The Men That Made the Concert (C.E. Denniston, W.H. Chandler, Mr White, William Litte Jnr, Marriott, Giles McCracken) * Sports * News and Notes Vol 4., No 2, Third Term 1901 * Bagging-Up - A Sketch * Concentration of Difficult Silver-Lead Ores * Estimation of Chlorine, Bromine and Iodine by D. Runting * Summaries of Notes from teh technical Journals * Notes on the Use and Care of Platinum Ware Common Sense * The Machinery at the Tasmania Gold Mine, Beaconsfield, Tasmania * Mining at Walhalla - The Long Tunnel Mine * Past Students * Mapping our of Agricultural Areas, etc, In Dense Vine Lands, North Queensland by R.A. Suter * News and Notes * Concert Balance Sheet e.m. weston, robert brough smyth, mcdougall, bruce, charles burbury, harrie wood, graham j. hopwood, emil gutheil, daniel walker, thomas hart, thomas stephen hart, m. hacker, schnitzler, f.a., ditchfield, l.h, alfred e.c. kerr, charles harvey, campbell, joseph bryant, campbell & ferguson, gilbert j. dawburn, irving, g.b., kerr, a.e.c., john walter sutherland, william robertson, herbert l. krause, alfred mica smith, binh pham, crosbie, d. jack, ditchburn, j., james hiscock, alfred johnston, reid, j.a., kidd, john, james bonwick, james, j.p, overall, d, e.h salmon, gaynor marquand, williams, w.w., williams, william, deane, c.m., vincent, tom, phillips, g.e., hart, d.w., jarnail suingh, rowlands, e., ferdinand m. krause,, easterby, f.l, parsons, r.g., partington, j.r., vial, s.b., meadows, h, atkins, arthur, john braisted burdekin, w.h. corbould, ditchburn, john, hill, john, otto e. jager, mcpherson, g.t, nicholls, c, thom, j.m., crafter, stewart, john brittain, peter lalor, hardy - commissioner, thomas bath, alf johnston, charles campbell, nash, llewellyn, watson, m.a, gardener, eddie, adamson, s.g, alford, l.c, allen, r.j, arthur, d.w.b., burge, a., willia, cairncross, cooper, i, maurice osric copland, maurice copland, dickinson, s., doepel, dunstan, john, loveday dunstan, eeles, terri, flegeltaub, israel, fletcher, a, fyrar, peter, kerr grant, w.kerr, green, gary, betty harris, harris, c.m., hay, a.l., hearn, hill, martin, james, david, johnston, alfred g, kilner, marion, kingston, thomas, lewin, f.c.k., lilburne, arthur m, linahan, colin, macready, w.h, major birlefco, markwald, henry, mccaffrey, mcfarlane, kaye, mciver, s.k, mellins, b, morton, felicity, w. kenneth moss, ken moss, nash, c.w., nash, neville, nickolls, berkeley, osborne, percy, philp, e., playford, william, reid, e, roberts, gordon, ross, f.c., royce, phillip, sawyer, basil, stewart, r.c., todhunter, i, vaisey, a., vincent, john, vinden, sue, wakley, cecil, watt, james, westcott, lewis, charles w. whyte,, vial, s browning, ballarat school of mines students in coolgardie and kalgoorlie, coolgardie, kalgoorlie, claude maitland, a.l. hay, a.s. lilburne, latham watson, arthur kildahl, thomas copeland, f.a. moss, w.a. hearman, cardoc james, alexander fraser, e.o. watt, g.m. roberts, j.j. dunstan, h.v. moss, j.a. hill,, john dunstan, c.m. harris, william h. corbould, j.w. sutherland, ballarat photographic club, ballarat field naturalists club, ballarat field club and science society, photography, geology, excursions, last chance mine, tasmania gold mine, beaconsfield, tasmania, rand, south africa, mount lyell, ballarat school of mines student excursion to mount lyell, h.l. krause, ferdinand krause, krause, hardie's hill, hardie's hill excursion, lal lal, lal lal excursion, lal lal geology excursion, smythesdale, smythesdale excursion, soudan, south african miners, south star mines, wynne and tregurtha battery, ananconda copper mining, arizona copper mining, boiler plates, british guinea, butte copper smelter, daylesford geology camp, daylesford excursion, diehl process, electric power house ballarat, electric pumps, geelong rope factory, gympie, golden horseshoe estate, c johnstone, jack nichol, c. macgennis, alec saunders, alfred g. johnstone, graeme jolly, william purdie, john mann, maxwell l gaunt, sale school of mines, freiberg school of mines, schools of mines, railway locomotive

Malachite is typically found as crystalline aggregates or crusts, often banded in appearance, like agates. It is also often found as botryoidal clusters of radiating crystals, and as mammillary aggregates as well. Single crystals and clusters of distinguishable crystals are uncommon, but when found they are typically acicular to prismatic. It is also frequently found as a pseudomorph after Azurite crystals, which are generally more tabular in shape. This particular specimen was recovered from the Burra Burra Copper Mine in Burra, South Australia. Otherwise known as the 'Monster Mine', the Burra Burra Copper Mine was first established in 1848 upon the discovery of copper deposits in 1845. Within a few short years, people from around the world migrated to Burra to lay their claim in the copper economy. By April 1848 the mine was employing over 567 people and supporting a population of 1,500 in the local township. Up until 1860, the mine was the largest metals mine in Australia, producing approximately 50,000 tonnes of copper between 1845 to its closure in 1877. The Burra Burra Mine was also famous for a number of other specimens, including; crystalline azurite, cuprite, and botryoidal and malachite. Malachite is considered a rare gemstone in that the original deposits for the stones have been depleted leaving behind very few sources. In addition, the use of Malachite as gemstones and sculptural materials remains just as popular today as they were throughout history. It is quite common to cut the stone into beads for jewellery. The fact that Malachite has such a rich colour and one that does not fade with time or when exposed to light makes it particularly rare. This specimen is part of a larger collection of geological and mineral specimens collected from around Australia (and some parts of the world) and donated to the Burke Museum between 1868-1880. A large percentage of these specimens were collected in Victoria as part of the Geological Survey of Victoria that begun in 1852 (in response to the Gold Rush) to study and map the geology of Victoria. Collecting geological specimens was an important part of mapping and understanding the scientific makeup of the earth. Many of these specimens were sent to research and collecting organisations across Australia, including the Burke Museum, to educate and encourage further study. A solid hand-sized copper carbonate hydroxide mineral with shades of blue and light green throughout. burke museum, beechworth, indigo shire, beechworth museum, geological, geological specimen, mineralogy, burra, burra burra mine, south australia, malachite, malachite specimen

Malachite is a green copper carbonate hydroxide mineral and was one of the first ores used to make copper metal. Malachite has been utilised as a gemstone and sculptural material in the past as its distinctive green color does not fade when exposed to light or after long periods of time. Malachite is formed at shallow depths in the ground, in the oxidizing zone above copper deposits. The material has also been used as a pigment for painting throughout history. This particular specimen was recovered from the Burra Burra Copper Mine in Burra, South Australia. Otherwise known as the 'Monster Mine', the Burra Burra Copper Mine was first established in 1848 upon the discovery of copper deposits in 1845. Within a few short years, people from around the world migrated to Burra to lay their claim in the copper economy. By April 1848 the mine was employing over 567 people and supporting a population of 1,500 in the local township. Up until 1860, the mine was the largest metals mine in Australia, producing approximately 50,000 tonnes of copper between 1845 to its closure in 1877. The Burra Burra Mine was also famous for a number of other specimens, including; crystalline azurite, cuprite, and botryoidal and malachite.Malachite is considered a rare gemstone in that the original deposits for the stones have been depleted leaving behind very few sources. In addition, the use of Malachite as gemstones and sculptural materials remains just as popular today as they were throughout history. It is quite common to cut the stone into beads for jewellery. The fact that Malachite has such a rich colour and one that does not fade with time or when exposed to light makes it particularly rare. This specimen is part of a larger collection of geological and mineral specimens collected from around Australia (and some parts of the world) and donated to the Burke Museum between 1868-1880. A large percentage of these specimens were collected in Victoria as part of the Geological Survey of Victoria that begun in 1852 (in response to the Gold Rush) to study and map the geology of Victoria. Collecting geological specimens was an important part of mapping and understanding the scientific makeup of the earth. Many of these specimens were sent to research and collecting organisations across Australia, including the Burke Museum, to educate and encourage further study. A solid hand-sized copper carbonate hydroxide mineral with shades of yellow, blue, and light green throughout.geological, geological specimen, burke museum, indigo shire, malachite, malachite specimen, burra burra mine, burra, south australia, australian mines, mines, monster mine

Galena Chalcopyrite is the earth's primary ore of lead and is mined from a large number of deposits in many countries. It is also an important source of silver. Galena Chalcopyrite is one of the most abundant and widely distributed sulfide minerals across the world. The mineral is found in igneous and metamorphic rocks in medium- to low-temperature hydrothermal veins. This specific specimen was recovered from the mines in Broken Hill, New South Wales. The mines in Broken Hill were first established after Charles Rasp discovered a large amount of silver-lead-zinc ore-body in the area in 1883. BHP (Broken Hill Proprietary) mining company was then established in 1885 and quickly became the lead in Australia's mining industry after they began excavating and exporting the country's largest amount of lead, silver, and zinc. This feat generated over $100 billion in wealth for the company.Galena Chalcopyrite is signifiant as it represents the catalyst for the rise of Australia's most influential mining companies - BHP. The mineral was one of the first to be mined in the country and after being made into lead, was used for a variety of things such as paint, batteries, ammunition, and plumbing materials before it was known to be harmful to humans. This specimen is part of a larger collection of geological and mineral specimens collected from around Australia (and some parts of the world) and donated to the Burke Museum between 1868-1880. A large percentage of these specimens were collected in Victoria as part of the Geological Survey of Victoria that begun in 1852 (in response to the Gold Rush) to study and map the geology of Victoria. Collecting geological specimens was an important part of mapping and understanding the scientific makeup of the earth. Many of these specimens were sent to research and collecting organisations across Australia, including the Burke Museum, to educate and encourage further study. A grey, solid hand-sized lead sulfide mineral with a silver metallic luster.burke museum, beechworth, geological, geological specimen, galena, galena chalcopyrite, chalcopyrite, broken hill, bhp, bhp mining, broken hill mine, mine, australia mine, lead, lead mine

Feldspathic arenites are sandstones that contain less than 90% quartz, and more feldspar than unstable lithic fragments, and minor accessory minerals.Feldspathic sandstones are commonly immature or sub-mature.These sandstones occur in association with cratonic or stable shelf settings. Feldspathic sandstones are derived from granitic-type, primary crystalline, rocks. If the sandstone is dominantly plagioclase, then it is igneous in origin Sandstone features prominently in public buildings throughout Victoria. Most of the sandstone used as dimension stone in the State came from three sources: the Heatherlie quarry in the Grampians (Silurian), the Bacchus Marsh area (Permian), and the Barrabool Hills near Geelong (Cretaceous).Sandstone features prominently in public buildings throughout Victoria, making this specimen special as it shows the materials used by Victorian building companies. Sandstone can also be crushed, crushed stone is used in the construction of roadways and road structures such as bridges, and in buildings, both commercial and residential. This specimen is part of a larger collection of geological and mineral specimens collected from around Australia (and some parts of the world) and donated to the Burke Museum between 1868-1880. A large percentage of these specimens were collected in Victoria as part of the Geological Survey of Victoria that begun in 1852 (in response to the Gold Rush) to study and map the geology of Victoria. Collecting geological specimens was an important part of mapping and understanding the scientific makeup of the earth. Many of these specimens were sent to research and collecting organisations across Australia, including the Burke Museum, to educate and encourage further study. A feldspar-rich sandstone, a sandstone intermediate in composition between an arkosic sandstone and a quartz sandstone, containing 10% to 25% feldspar and less than 20% matrix material of clay, sericite, and chlorite. Feldspathic arenite containing less than 90 percent of the composition of quartz. Feldspar is the main composition. Feldspathic arenite may contain fragments of unstable rock, and a little amount of other minerals such as mica and heavy minerals. Some feldspathic arenite have pink or red color because of the presence of potassium feldspar or iron oxide. There are also colored light gray to white. These sandstones are usually medium to coarse grained and can contain a high percentage of granules with angular until subangular roundness. The content of the matrix can appear as the rest up to more than 15 percent, and sorting of grains can present as moderate to poorly sorted. Feldspathic sandstones are generally immature in textural maturity. Feldspathic arenite can not be judged from the structure of the sediment. Bedding can emerge from the laminate parallel to the crossbed. Fossils may appear in the layer deposited on the sea. Feldspathic arenites usually appear on the craton or the continental shelf, which can be associated with conglomerate, quartz lithic arenite, carbonate rock, or evaporites. This sandstone may also appear on the succession of sedimentary basins deposited on an unstable or deep sea, and moving arc setting. According to Pettijohn (1963) Arkose make up about 15 percent of all sandstones. Some Arkose formed in situ when the granite and related rocks disintegrate and generate granular sediments. Most of the material feldspathic sandstones derived from primary crystalline granitic rocks, such as granite or metasomatic rocks containing abundant potassium feldspar. Mineral contained in sandstones is mostly a form of plagioclase feldspar derived from quartz diorite or volcanic rock. Feldspar contained on this sandstone comes from arid to cool climates when the chemical weathering process is reduced.sandstone, natural stone, feldspathic sandstone, burke museum, geology, geological, geological specimen

Ilvaite has acquired its name from Ilva (Latin for Elba) Island, Greece, where Ilvaite is most commonly found. The geological setting in which Ilvaite occurs is through contact with magnetite, zinc and copper ore deposits, along with contact metamorphic deposits and zeolite zones. llvaite crystallizes in the form of black prismatic crystals and columns . This specimen was retrieved from Broken hill, known as the world's richest and largest zinc-lead ore deposit. Because of Ilvaite's often unaesthetic crystal formations compared to other minerals, Ilvaite is uncommon in most rock collections, particularly specimens that are not well formed, such as this one. Ilvaite is also a member of the Sorosilicate subclass of the silicate minerals, which have an unusual basic unit of Si2O7, making Ilvaite a unique mineral. Given that Ilvaite is not commonly found in Australia, it marks a unique contribution to an Australian collection of minerals. This specimen is part of a larger collection of geological and mineral specimens collected from around Australia (and some parts of the world) and donated to the Burke Museum between 1868-1880. A large percentage of these specimens were collected in Victoria as part of the Geological Survey of Victoria that begun in 1852 (in response to the Gold Rush) to study and map the geology of Victoria. Collecting geological specimens was an important part of mapping and understanding the scientific makeup of the earth. Many of these specimens were sent to research and collecting organisations across Australia, including the Burke Museum, to educate and encourage further study.A solid hand-sized ferrous iron analogue mineral with of black with shades of beige Ilvaite is a brittle, opaque rock formation that has acquired its name from Ilva (Latin for Elba) Island, Greece, where Ilvaite is most commonly found. The geological setting in which Ilvaite occurs is through contact with magnetite, zinc and copper ore deposits, along with contact metamorphic deposits and zeolite zones. llvaite crystallizes in the form of black prismatic crystals and columns rock, mineral, ilvaite, ilvaite specimen

This specimen was recovered from the Nigretta Falls (previously named the Upper Wannon Falls), Victoria. The falls are fed by the Wannon River that has its head waters in the Grampians mountains. Approx. 10km upstream of the Wannon Falls, Nigretta is a multi-channel segmented cascade of smaller drops and bounces guided by patterns of joints in a much older (Devonian) rhyolitic volcanic rock. Both the Wannon and Nigretta Falls are iconic landscape features, entrenched in the history and identity of the region. These falls are particularly rare as they are the product of volcanic activity, which is unique in the context of the Volcanic Plain of Victoria. Waterfalls of this capacity are generally associated with the Uplands areas of Victoria, rather than the edges of the Volcanic Plain. This specimen is part of a larger collection of geological and mineral specimens collected from around Australia (and some parts of the world) and donated to the Burke Museum between 1868-1880. A large percentage of these specimens were collected in Victoria as part of the Geological Survey of Victoria that begun in 1852 (in response to the Gold Rush) to study and map the geology of Victoria. Collecting geological specimens was an important part of mapping and understanding the scientific makeup of the earth. Many of these specimens were sent to research and collecting organisations across Australia, including the Burke Museum, to educate and encourage further study. A solid, dark grey mineral specimen with pale terracotta coloured inclusions. Rhyodacite is a volcanic rock intermediate in composition between dacite and rhyolite. Rhyodacites form from rapid cooling of lava relatively rich in silica and low in alkali metal oxides.GEOLOGICAL SURVEY / R / S 55 FELSTONE PORPHYburke museum, beechworth, indigo shire, beechworth museum, geological, geological specimen, porphyritic rhyodacite, lava, nigretta falls, upper wannon falls, dacite, rhyolite, volcanic geology

Rhodonite is a reddish-pink manganese silicate material and often contains iron, magnesium and calcium. It is usually found in metamorphic rocks (rocks which have been altered by heat, pressure or chemical process). It can range in size from tiny to massive. Because of their composition they are not suitable for use in jewellery because they are hard enough. It is quite rare to find, though has been found in Australia, North America, South America and Europe.This specimen is part of a larger collection of geological and mineral specimens collected from around Australia (and some parts of the world) and donated to the Burke Museum between 1868-1880. A large percentage of these specimens were collected in Victoria as part of the Geological Survey of Victoria that begun in 1852 (in response to the Gold Rush) to study and map the geology of Victoria. Collecting geological specimens was an important part of mapping and understanding the scientific makeup of the earth. Many of these specimens were sent to research and collecting organisations across Australia, including the Burke Museum, to educate and encourage further study. This specimen is a palm shaped piece of loellingite within rhodonite. It is mostly reddish-pink coloured, with flecks of light and dark grey. Loellingite is a grey iron arsenide which often forms into crystal shapes. It is mostly found in mesothermal veins (caused by immense heat) with sulfides or in limestone. It is toxic when heated or struck. rhodonite, loellingite, burke museum, beechworth, geological survey of victoria

This specimen was recovered from Silverton Mine in Broken Hill, New South Wales. Otherwise known as the 'Day Dream Mine', the Silverton Mine was first established in 1883, when silver and lead deposits where discovered. Within a few short years, the population of Broken Hill reached 3000 people. As of today the Silverton Mine is still open, and has produced over 200 million tonnes of ore, which has generated over $100 billion. The Silverton Mine was also famous for a number of specimens such as silver, iron and zinc.Copper is considered to be a rare ore in that finding it in its pure form is rare. Nowadays when mining for Copper it is often found in mixed in with other minerals or it is recycled from use. Moreover, Copper is found in a range of everyday uses such as coins, cookware, pipes, heating conductors and anything that generate electricity. The fact that Copper is heat a heat conductor, electricity conductor and it does not corrode easily, makes this ore a versatile and useful. This specimen is part of a larger collection of geological and mineral specimens collected from around Australia (and some parts of the world) and donated to the Burke Museum between 1868-1880. A large percentage of these specimens were collected in Victoria as part of the Geological Survey of Victoria that begun in 1852 (in response to the Gold Rush) to study and map the geology of Victoria. Collecting geological specimens was an important part of mapping and understanding the scientific makeup of the earth. Many of these specimens were sent to research and collecting organisations across Australia, including the Burke Museum, to educate and encourage further study.A solid hand-sized cube-shaped sulfide and oxide with shades of green, grey and brown throughout. Copper is typically found as nuggets in the ground. It can be found in a range of forms such as its native state; mixed with other ores, such as zinc and iron; as porphyry copper deposits; and as major deposits. Porphyry deposits are when the mineral is scattered evenly throughout the rock. Major deposits are when the mineral is scattered amongst other minerals.burke museum, beechworth, indigo shire, beechworth musum, geological, geological specimen, mineraology, copper, copper ore, copper ore speciment, broken hill, new south wales

According to the 1912 Department of Mines Bulletin of the Geological Survey of Victoria, basalt covers a considerable portion of the Macedon area including Mount Macedon. Basalt is the most common form of rock underlying the earth's surface and is found in three kinds of rock forming environments: ocean divergent boundaries, oceanic hotspots, and mantle plumes and hotspots beneath continents.This specimen is part of a larger collection of geological and mineral specimens collected from around Australia (and some parts of the world) and donated to the Burke Museum between 1868-1880. A large percentage of these specimens were collected in Victoria as part of the Geological Survey of Victoria that begun in 1852 (in response to the Gold Rush) to study and map the geology of Victoria. Collecting geological specimens was an important part of mapping and understanding the scientific makeup of the earth. Many of these specimens were sent to research and collecting organisations across Australia, including the Burke Museum, to educate and encourage further study.A solid mass, geological specimen in shades of grey and white. Hyalite is a colourless variety of opal. It occurs as globular and botryoidal masses and irregular crusts in volcanic and pegmatite environments where the silica deposits from the gas phase. Basalt is dark in colour, fine-grained igneous rock composed of plagioclase and pyroxene minerals. It is commonly formed as an extrusive rock, such as lava flow. It is one of the most common forms of rock underlying the earth's surface.burke museum, geological specimen, department of mines, geological survey of victoria, basalt, mount macedon, beechworth

This particular specimen was recovered from the Lal Lal Coal and Iron Mine in Victoria, 19km from Ballarat. Brown Coal was discovered here in 1857, just alongside the Geelong to Ballarat Railway line. This discovery of lignite (brown coal) was the first in Victoria, which would bring important benefits to the region and state, both of which had previously been reliant on coal imports. In the 1860s, iron ore was found just 5km from Lal Lal, and the area was converted into an Iron Ore Mine. The Lal Lal Iron Mining Company took over operations in 1874, who then peaked iron production in 1884. This mine continued operations until June 1884, when the blast furnace was extinguished and never recommenced. The blast furnace at Lal Lal is considered one of the most important and highly significant sites ion early industrial history in Australia, as it is the only remaining best furnace from the nineteenth century in the Southern Hemisphere. The furnace ruins are 17 metres high, and are clearly visible today on Iron Mine Road, Lal Lal, near the Bungal Dam. This specimen of Lignite (brown coal) is significant, as it was mined from the area where brown coal was first discovered in Victoria, leading to an important and controversial future of the mining and use of brown coal in this State. The Victorian Heritage Database has listed the Lal Lal Coal Mine with local significance, with their Statement of Significance stating: "The Lal Lal coal mine is historically significant as the site of the first discovery of lignite (brown coal) in Victoria, and one that promised important benefits to regional and state industries that were reliant on coal imports at the time. The significance of the stie is reduced by the poor state of preservation of the coal mining and processing fabric". This specimen is part of a larger collection of geological and mineral specimens collected from around Australia (and some parts of the world) and donated to the Burke Museum between 1868-1880. A large percentage of these specimens were collected in Victoria as part of the Geological Survey of Victoria that begun in 1852 (in response to the Gold Rush) to study and map the geology of Victoria. Collecting geological specimens was an important part of mapping and understanding the scientific makeup of the earth. Many of these specimens were sent to research and collecting organisations across Australia, including the Burke Museum, to educate and encourage further study.A hand-sized light-weight, soft and combustable sedimentary rock specimen, that is dark brown in colour. The specimen has jagged edges, as though parts of the rock have crumbled away. Brown coal, or Lignite, is formed naturally from compressed peat, and is typically found in natural basins. The stages to the formation of coal ('coalification') begin with plant material and wood, which will decay if it is not subjected to deep burial or heating, and turn into Peat. Peat, when sufficiently compressed naturally, will turn into Brown Coal (Lignite), and finally into Black Coal (sub-bituminous, bituminous and anthracite). Each successive stage has a higher energy content and lower water content. It is brownish-black in colour. Brown Coal has a high moisture content, between 50 and 75 percent, and a low carbon content. Some Brown Coals may be stratified, with layers of plant matter, which means little coalification has occurred beyond the peat natural processing stage. When Brown Coal is submerged in dilute nitric acid or boiling potassium hydroxide solution, it reacts to produce a reddish solution, of which higher-ranked coals do not. When brown coal is pulverised and burned in boilers, the steam is used to drive turbines, which generates electricity. It is the lowest rank of coal, as when burned, it creates a relatively low heat content, which in turn does not create a great output of steam. burke museum, beechworth, indigo shire, beechworth museum, geological, geological specimen, mineralogy, brown coal, brown coal specimen, lignite, lal lal, lal lal coal mine, lal lal iron mine, ballarat, blast furnace

Gabo Island sits off the coast of East Gippsland in Victoria, with cliffs of granite in a relatively unique red/pink colour. Early attempts to build a lighthouse on the island were abandoned due to poor foundations, but when a ship ran aground on the nearby Tullaberga Island in 1853 and led to the death of 37 people, efforts were reignited. Construction of a new lighthouse was completed by 1858, using Gabo Island granite. The lighthouse is Australia's second tallest in Australia and continues to play an important role in guiding boats around the coast as they journey between Melbourne and Sydney. The distinct pink colour from the granite means the lighthouse continues to be a defining feature of the island. Gabo Island granite was also used to construct the Treasury Building at 117 Macquarie Street in Sydney, now the Intercontinental Hotel.Granite in the pink colour of this specimen is relatively rare. The connection to the lighthouse on Gabo Island also gives the specimen historic significance and social significance regarding the maritime history of Victoria. This specimen is part of a larger collection of geological and mineral specimens collected from around Australia (and some parts of the world) and donated to the Burke Museum between 1868-1880. A large percentage of these specimens were collected in Victoria as part of the Geological Survey of Victoria that begun in 1852 (in response to the Gold Rush) to study and map the geology of Victoria. Collecting geological specimens was an important part of mapping and understanding the scientific makeup of the earth. Many of these specimens were sent to research and collecting organisations across Australia, including the Burke Museum, to educate and encourage further study.A solid palm-sized mineral, coloured by flecks of pink, red, and grey. Granite is formed by the slow crystallisation of magma below the earth's surface. It is typically composed of a mix of quartz, feldspar, and other minerals, though syenitic granite like this sample has a smaller amount of quartz than typical granite. This different mineral composition leads to the more distinct pink and red colouring.First sticker: [torn]logical survey / R........ S........ / Loc Gabo Island / 1/4 Sheet / Second Sticker: 15 Third Sticker: Syenitic Graniteburke museum, beechworth, indigo shire, beechworth museum, geological, geological specimen, mineralogy, gabo island, gabo island lighthouse, lighthouse, granite, coast, coastal, granite specimen, victoria, coastal cliffs

In Australia, precious opal is found in Cretaceous age sandstones and mudstones. These sedimentary rocks were deeply weathered and this weathering released silica into the groundwater.Australia is the only part of the world where opalised animal and plant fossils have been found. Opal artefacts several thousands of years old have been discovered in East Africa. As early as 250 BC the Romans prized opals, thought to have come from mines in Eastern Europe, the ancient world's main source of opals. There are many aboriginal dreamtime stories that feature opal. Australian opals discovered during the late 1800's found little favour with European markets but their commercial value increased in the 1900's and in 1932 Australia took over as the major producer of opals in the world and remains the largest producer to this day. Opal is found around the world (Brazil, Mexico, Honduras and the western US) however Australia produces 95% of the world's precious opal and it is our official national gemstone. Opal was first mined commercially at Listowel Downs in Queensland in 1875 and later at White Cliffs in NSW. Today, Coober Pedy (SA) is the main producer of white opal, though in recent years this field has expanded and all types of opals are found. Other centres in SA include Andamooka and Mintabe. Lightning Ridge (NSW) is renowned for black opal and formerly White Cliffs was a large producer of high quality opal. Boulder opals (opals in concretionary ironstone) are mined in Queensland from numerous localities in a zone extending from the Eulo and Cunnamulla district in the south and northwest for a distance of over 700 km to Kynuna in the north. The towns of Quilpie, Yowah and Winton are the main opal mining and wholesale centres. Opals are considered gemstones and have been used in jewellery for thousands of years.Throughout much of history, opals were actually believed to be good luck. The Romans thought that opals were one of the luckiest gemstones and a symbol of hope. In the Middle Ages, opals were believed to be bestowed with all the positive properties of coloured gemstones due to its rainbow-like play of colour. Finally, there is a superstition that you should not wear an opal unless it is your birthstone otherwise misfortune will befall you. This, of course, is far-fetched, but the notion could have been promoted in the late 19th and early 20th Centuries by diamond traders who were trying to increase sales of diamonds and deter people from buying opals. Possibly related to this is the thought that you should set opal jewellery with diamonds as their powers of good fortune will override any negativity held by the opal. The great majority of opal does not show play of colour and is called common opal or potch however this is not the case with a precious opal. Opal is a precious gemstone, like rubies, emeralds or diamonds. Opal is rare, and it is expensive to prospect and mine for.Silica is one of the most common minerals on the planet, but precious opal is very rare – far more rare than diamonds. Precious opal is rare because the natural processes that create it rarely occur.Most (at least 95%) of the opal found by miners is common opal without gem colour. In Australia we call it potch. It can be white, grey, black or amber coloured. Even when a miner finds gem-coloured opal, most of it can’t be cut into gemstones because it’s too thin, or sandy. This specimen is part of a larger collection of geological and mineral specimens collected from around Australia (and some parts of the world) and donated to the Burke Museum between 1868-1880. A large percentage of these specimens were collected in Victoria as part of the Geological Survey of Victoria that begun in 1852 (in response to the Gold Rush) to study and map the geology of Victoria. Collecting geological specimens was an important part of mapping and understanding the scientific makeup of the earth. Many of these specimens were sent to research and collecting organisations across Australia, including the Burke Museum, to educate and encourage further study.It is not known where this opal originated, except that it is probably from Victoria, as it has been recorded from many localities in the State. Common Opal is formed from silica-rich water circulating through rocks near the Earth’s surface. It consists of minute spheres of silica arranged in different ways. In common opal, the spheres are of different sizes and randomly arranged, unlike in precious opal where the spheres are of similar size and uniformly arranged in three dimensions. These differences account for common opal generally being translucent to opaque and without the play of colours, or opalescence, displayed by precious opal. Common opal is found in many localities and different geological environments throughout Australia and the world. Precious opal requires special conditions to form and is much less common. Australia produces most to the world’s precious opal. burke museum, beechworth, indigo shire, beechworth museum, geological, geological specimen, precious opal, opal, brazil, mexico, honduras, queensland, coober pedy, gemstones, jewellery, play-of-colour, light blue

Basalt is a common igneous rock that composes most of the Earth's surface and can be found on the Moon and other rocky planets of the Solar System. It is generally composed minerals such as calcic plagioclase, clinopyroxene and iron ore which form grains that are indistinguishable to the naked eye. It can be dark grey or black in colouring and sometimes may contain holes left by gas bubbles. Most of the Earth's basalt was produced in environments such as oceanic divergent boundaries, oceanic hotspots, and mantle plumes and hotspots beneath continents. Basalt is commonly used in construction where it is crushed and used for multiple purposes such as concrete aggregate, road base, or railroad ballast. Thin slabs of basalt can also be cut and used for floor tiles, stone monuments, and building veneer. This particular specimen was excavated from Talbot in Victoria, which was a small gold mining town established in 1852. As basalt is a common rock, it is not specific to Talbot. However, this specimen can be assumed to be of the Cainozoic age due to previous geomorphic surveys of the area. This particular type of Basalt was used mainly for roads due to the durability of the rock.Basalt holds significance due to the continued use of the rock from historic until present times. The rock has been utilised for many types of construction and is still used for the same purposes today. Basalt also has significance to the Earth and other rocky planets of the Solar System as it makes up most of the planet's surface. This specimen is part of a larger collection of geological and mineral specimens collected from around Australia (and some parts of the world) and donated to the Burke Museum between 1868-1880. A large percentage of these specimens were collected in Victoria as part of the Geological Survey of Victoria that begun in 1852 (in response to the Gold Rush) to study and map the geology of Victoria. Collecting geological specimens was an important part of mapping and understanding the scientific makeup of the earth. Many of these specimens were sent to research and collecting organisations across Australia, including the Burke Museum, to educate and encourage further study.A smaller than hand sized rock specimen which is dark grey in colour with small holes and white deposits across its surface.Geological survey / [illegible] /burke museum, beechworth, geological specimen, geology, basalt, basalt specemin, indigo shire, talbot, cainozoic, igneous rock

This specimen was recovered from Creswick in Victoria. Basalt is dark in colour, often black and has a fine grain. It is composed of plagioclase and pyroxene minerals and an igneous rock. This specimen is part of a larger collection of geological and mineral specimens collected from around Australia (and some parts of the world) and donated to the Burke Museum between 1868-1880. A large percentage of these specimens were collected in Victoria as part of the Geological Survey of Victoria that begun in 1852 (in response to the Gold Rush) to study and map the geology of Victoria. Collecting geological specimens was an important part of mapping and understanding the scientific makeup of the earth. Many of these specimens were sent to research and collecting organisations across Australia, including the Burke Museum, to educate and encourage further study.A cylindrical fine-grained piece of igneous rockburke museum, geological survey of victoria, geological specimen, geology

This specimen was recovered from Wonthaggi in Victoria. Coal is a sedimentary rock which is composed of peat after it has been exposed over millions of years. This is an example of Australian black coal which is used as either thermal or coking coal for electricity generation or manufacturing processes. It is predominantly composed of Carbon which is 'C' on the periodic table of elements. This early example of a coal sample, shows the important role that coal played/plays in Australia's energy generation and manufacturing processes. This specimen is part of a larger collection of geological and mineral specimens collected from around Australia (and some parts of the world) and donated to the Burke Museum between 1868-1880. A large percentage of these specimens were collected in Victoria as part of the Geological Survey of Victoria that begun in 1852 (in response to the Gold Rush) to study and map the geology of Victoria. Collecting geological specimens was an important part of mapping and understanding the scientific makeup of the earth. Many of these specimens were sent to research and collecting organisations across Australia, including the Burke Museum, to educate and encourage further study.Small piece of black coal with museum original labelGeological survey / R..... S...../ Locality Cape Patterson coal specimen, burke museum, geological survey of victoria, geological specimen, geology

This particular specimen was recovered from two hundred feet down in the Golden Mile in Kalgoorlie, Western Australia. The Golden Mile, named after the estimated sixty million ounces of gold worth around one hundred billion dollars, was the birthplace of the largest gold rush in Australia almost one hundred and thirty years ago when William Brookman and Samuel Pearce leased the Great Boulder mine. The Golden Mile is also the home of the Super Pit, Australia's most well-known mine.The majority of gold deposits will form as a native metal, however, on occasion, it can form a compound with another element, in this case, sulphur. Therefore, this specimen is a rare example of gold naturally forming into a compound mineral with sulphur. This specimen is part of a larger collection of geological and mineral specimens collected from around Australia (and some parts of the world) and donated to the Burke Museum between 1868-1880. A large percentage of these specimens were collected in Victoria as part of the Geological Survey of Victoria that begun in 1852 (in response to the Gold Rush) to study and map the geology of Victoria. Collecting geological specimens was an important part of mapping and understanding the scientific makeup of the earth. Many of these specimens were sent to research and collecting organisations across Australia, including the Burke Museum, to educate and encourage further study.A small gold-sulphide ore mineral specimen in shades of silver and grey with flecks of gold. Precious metals are often found in Sulphide Ores, as sulphides usually bind to these metals. They are also extremely symmetrical in crystaline form. Gold-Sulphide Ore occurs when gold forms a natural compound with other elements. In this form, gold can be present in one of two ways. It can be fully immersed in the sulphide, or a portion may be partially free. This specimen has minimal gold visible, with only a few flecks being partially visible.burke museum, beechworth, indigo shire, beechworth museum, geological, geological specimen, mineralogy, gold-sulphide ore

This specimen originated from Mount Lyell on the west coast of Tasmania, where a large group of open cut and underground copper-silver-gold mines began operating in 1883. Between 1893-1994, the Mt Lyell Mining and Railway Company were responsible for operations. The Mt Lyell copper-gold mines produce some excellent crystallised specimens of chalcopyrite and other minerals. The deposits are generally considered to be of Cambrian volcanic origin, but there are indications of Devonian granitic influence on the ores, plus local remobilisation during Devonian deformation. Over 120 million tonnes of ore was produced from several workings, including the main Prince Lyell mine and the North Lyell mine, which was also of great importance. The Mount Lyell mines have a long history of human and environmental disasters, including the 1912 North Lyell fire that killed 42 miners, and two separate incidents in 2013 in which three people lost their lives. The environmental impacts from this complex of mines are extensive, with waste tailings and heavy metal contamination flowing directly into the King and Queen River catchments. In 1954, the eminent Australian historian, Geoffrey Blainey, published 'The Peaks of Lyell' which delves into the history of the 1912 North Mount Lyell Disaster.Chalcopyrite does not contain the most copper in its structure relative to other minerals, but it is the most important copper ore since it can be found in many localities and occurs in a variety of ore types. The brassy-yellow colours in Chalcopyrite mean it is often confused with pyrites and gold, leading to use of the term, "fool's gold." Chalcopyrite has been the primary ore of copper since smelting began five thousand years ago. This specimen is part of a larger collection of geological and mineral specimens collected from around Australia (and some parts of the world) and donated to the Burke Museum between 1868-1880. A large percentage of these specimens were collected in Victoria as part of the Geological Survey of Victoria that begun in 1852 (in response to the Gold Rush) to study and map the geology of Victoria. Collecting geological specimens was an important part of mapping and understanding the scientific makeup of the earth. Many of these specimens were sent to research and collecting organisations across Australia, including the Burke Museum, to educate and encourage further study.This hand sized solid mineral specimen has shades of brass-yellow with spots of iridescent green-black tarnish. Chalcopyrite is a copper iron sulphide mineral and a major ore of copper common in sulphide veins and disseminated in igneous rocks. Chalcopyrite has a hardness of 3.5-4 on the Mohs Scale. It is a member of the tetragonal crystal system and has metallic lustre and opaque transparency.burke museum, beechworth, indigo shire, beechworth museum, geology, geological specimen, chalcopyrite, copper pyrites, copper mining, tasmanian geology, mount lyell, mount lyell mines, fools gold, mohs scale, crystals, minerals, historical geological collection, victorian geological survey, a.r.c selwyn, gold rush, van diemans land

This specimen is from Barefoot Hills, Victoria. Sandstones are economically important as major reservoirs for both petroleum and water, as building materials, and as valuable sources of metallic ores. Most significantly, they are the single most useful sedimentary rock type for deciphering Earth history. This specimen is part of a larger collection of geological and mineral specimens collected from around Australia (and some parts of the world) and donated to the Burke Museum between 1868-1880. A large percentage of these specimens were collected in Victoria as part of the Geological Survey of Victoria that begun in 1852 (in response to the Gold Rush) to study and map the geology of Victoria. Collecting geological specimens was an important part of mapping and understanding the scientific makeup of the earth. Many of these specimens were sent to research and collecting organisations across Australia, including the Burke Museum, to educate and encourage further study.A sedimentary rock composed mostly of quartz sand. Sandstone is the second most common sedimentary rock after shale. Sandstones consist of sand-sized grains principally quartz, feldspar and rock fragments. The two major classes of sandstone are arenite and wacke. the colour of sandstone varies from grey, yellow, red and white reflecting the variation in mineral content and cement and is gritty to touch (like sandpaper).Geological survey / R.... S 61 / Loc Bareboot Hills / Sheet / 24SE / 94 /burke museum, beechworth, indigo shire, beechworth museum, geological, geological specimen, mineralogy, sandstone, yellow sandstone, victoria, barefoot hills

This specimen was recovered from Philip Island in Victoria. Chalcedony is composed of Quartz and Silicon Dioxide represented as SIO2. It has and is still used as a gemstone for thousands of years. This is an excellent specimen Chalcedony that shows its aesthetic properties. This specimen is part of a larger collection of geological and mineral specimens collected from around Australia (and some parts of the world) and donated to the Burke Museum between 1868-1880. A large percentage of these specimens were collected in Victoria as part of the Geological Survey of Victoria that begun in 1852 (in response to the Gold Rush) to study and map the geology of Victoria. Collecting geological specimens was an important part of mapping and understanding the scientific makeup of the earth. Many of these specimens were sent to research and collecting organisations across Australia, including the Burke Museum, to educate and encourage further study. Uniquely shaped piece of Chalcedony with opening in the centerburke museum, beechworth, geological, geological specimen

Gold usually is found as a native metal, but it also forms minerals with tellurium, sulphur, or selenium. The gold-bearing minerals that contain tellurium are called tellurides. Kalgoorlie, Western Australia contains greater than 1500 tonnes of gold.Seventy to seventy-five percent of the deposit occurs as native gold, but a further twenty percent appears as tellurides. What remains is in the form of 'invisible' gold. Extracting gold from telluride minerals, such as calaverite, which contains around forty-two percent gold, has produced approximately three hundred tonnes of gold. Prior to 1896, rocks containing tellurides were not recognised as rich gold ores, and were discarded.This specimen is part of a larger collection of geological and mineral specimens collected from around Australia (and some parts of the world) and donated to the Burke Museum between 1868-1880. A large percentage of these specimens were collected in Victoria as part of the Geological Survey of Victoria that begun in 1852 (in response to the Gold Rush) to study and map the geology of Victoria. Collecting geological specimens was an important part of mapping and understanding the scientific makeup of the earth. Many of these specimens were sent to research and collecting organisations across Australia, including the Burke Museum, to educate and encourage further study.A hand-sized silvery to pyrite-yellow striated mineral containing tellurium and goldburke museum, beechworth, beechworth museum, geological, geological specimen, mineralogy, telluride, tellurite, gold-bearing, kalgoorlie, tellurium

This specimen is from Broken Hill, NSW. Galena is a natural mineral form of lead sulphide and is often found associated with sphalerite, calcite, and fluorite. Galena is an important lead ore mineral, and, in some regions, it is also an important mineral associated with silver ore. Sphalerite is a sulphide mineral that is the main ore of zinc. Rhodonite is an uncommon mineral once used as an ore of manganese in India, however today the scarcity and fragility of the crystals mean it is primarily used as lapidary materials or mineral specimens. In 1883, Charles Rasp who was a boundary rider at the time, discovered what he thought were deposits of tin but were in fact samples of silver and lead. He and six others went on to set up the first mining company in Broken Hill (BHP). The ore body became the largest and richest of its kind in the world mining ore worth more than 42,000 pounds in its first year. Many of these specimens were sent to research and collecting organisations across Australia, including the Burke Museum, to educate and encourage further study. Galena contains lead and silver, Sphalerite contains zinc. This specimen is part of a larger collection of geological and mineral specimens collected from around Australia (and some parts of the world) and donated to the Burke Museum between 1868-1880. A large percentage of these specimens were collected in Victoria as part of the Geological Survey of Victoria that begun in 1852 (in response to the Gold Rush) to study and map the geology of Victoria. Collecting geological specimens was an important part of mapping and understanding the scientific makeup of the earth. Many of these specimens were sent to research and collecting organisations across Australia, including the Burke Museum, to educate and encourage further study.A hand-sized piece of Sphalerite and Galena with Rhodonite crystalsburke museum, beechworth, geological, geological specimen, galena, rhodonite, sphalerite, silver ore, manganese, lead sulphide, lead ore, zinc ore, lapidary, mineral specimen, broken hill, nsw